Kyle A. Grice

• General Chemistry
  
• Organic Chemistry
  
• General, Organic, and Biological Chemistry
  
• Instrumental Analysis
  
• Inorganic Chemistry
  
• Masters-level Inorganic Chemistry
  
• Masters-level Bioinorganic Chemistry
  

Dr. Grice’s research focuses on inorganic chemistry relevant to large societal challenges. Dr. Grice studies how metal complexes can be used to convert carbon dioxide back into useful chemicals, as well as the roles metals play in the active sites of enzymes targeted in disease states. In addition, Dr. Grice examines platinum complexes for selective C-H bond functionalization. We also regularly collaborate with other groups on organic, inorganic, and bioinorganic projects. Techniques used in the Grice lab include organic and inorganic synthesis methods, NMR (1H, 11B, 13C, 19F, and 31P) spectroscopy, IR spectroscopy, UV-Vis spectroscopy, electrochemical methods, and computational chemistry.

More information is available on Dr. Grice’s research website.

• Experimental and Theoretical Investigation of the Coordination of 8-Hydroxquinoline Inhibitors to Biomimetic Zinc Complexes and Histone Deacetylase 8 (HDAC8) (mdpi.com)
• Synthesis, characterization, computational studies, and reactivity of platinum(II) complexes of alkyl phosphite ligands - ScienceDirect
• Methane Generation from CO2 with a Molecular Rhenium Catalyst | Inorganic Chemistry (acs.org)
• Dr. Grice’s full publication list can be found here.

• Director of Advising for the Department of Chemistry and Biochemistry
• Member of the SI advisory committee for LSP
• Editor for DePaul Discoveries
• Leadership Council Member for IONiC

• American Chemical Society